RU183613U1 - BUILDING STRUCTURE - Google Patents

Abstract

The claimed solution relates to building structures made of several layers, and can be used in the construction, repair and reconstruction of various engineering structures requiring waterproofing and corrosion protection, in particular tanks, sewers and pumping stations. The building structure includes a slab made on the basis of a cement-sand mixture, and a sheet polymer coating fixed on the slab with spikes that mesh with the slab. A dowel is installed in the corresponding opening of the structure, the outer surface of which is in contact with the walls of the opening of the structure, made with protruding elements. The dowel is made with a sealed landing socket for the location of the fastener in it. The dowel head can be made in the form of a truncated cone, and the protruding elements of the outer surface of the dowel can be made in the form of inclined protrusions, the apex directed to the head. The hole in the polymer coating layer for the dowel is made with a chamfer, the size of which is 1 mm smaller than the size of the dowel head. The layer of cement-sand slab may have a thickness in the range of 30-50 mm, and the polymer coating layer may have a thickness in the range of 2-5 mm. In the end parts of the plate can be installed embedded parts made with holes for mounting elements and carvings. The technical result consists in increasing the reliability of the claimed design, it is characterized by durability, the ability to provide and maintain tightness, high maintainability.

Description

The claimed solution relates to building structures made of several layers, and can be used in the construction, repair and reconstruction of various engineering structures requiring waterproofing and corrosion protection, in particular, tanks, sewers and pumping stations.

The use of polymer sheet materials for the protection and waterproofing of concrete structures, for example, in underground construction, is widely known in the prior art. In particular, such solutions, which are a polymer sheet coating containing anchor fastening elements, designed to fasten the sheet to building reinforcement before concreting or adhesion to the concrete mortar during the construction process, are disclosed in several documents: in the RF patent for utility model No. 152489 ( IPC E02D 31/00, published June 10, 2015), in the patent of China No. CN106003698 (IPC B29C 65/20, B29C 65/78, B29C 65/82, published May 28, 2016), in German patent No. DE9300859U1 (IPC B32B 27 / 00, B32B 7/02, B32B 3/06, published July 8, 1993). Known solutions can be used as permanent formwork in the production of reinforced concrete structures, including underground construction, to create a waterproofing layer. In these documents, the possibilities of securing various auxiliary structural elements, in particular, travel brackets or stairs, while maintaining the integrity of the entire structure, which is very important in the construction of such engineering structures, are not disclosed. And also such solutions cannot be used in the process of repair and reconstruction of existing structures to create a tight connection.

The technical solution according to the RF patent for utility model No. 152410 (IPC E03F 5/00, published on 05/27/2015), previously developed by the applicant, was chosen as the closest analogue. From this patent, a building structure is known, including a reinforced concrete base, on which a sheet polymer coating is fixed with spikes that engage with the base. To install the travel brackets in the structure, a hole is made in which a dowel made of plastic with a ribbed outer surface in contact with the walls of the hole of the structure is inserted. The junction between the dowel and the polymer coating is boiled to impart tightness. However, moisture can also enter the space between the inner surface of the dowel and the fastener inserted into it, which leads to a gradual destruction of the structure. In addition, the known solution cannot be used in the repair and reconstruction of existing structures while maintaining the integrity of the sheet polymer coating.

The difference of the claimed technical solution from the closest analogue is that to secure the claimed building structure, it contains a dowel made with a sealed landing socket for the location of the fastener in it.

The task is to create a building structure that can be used in the repair and waterproofing of existing engineering structures, made with the possibility of fixing it while maintaining tightness. The technical result consists in increasing the reliability of the claimed design, it is characterized by durability, the ability to provide and maintain tightness, high maintainability.

The claimed technical result is achieved by the fact that in a building structure comprising a slab made on the basis of a cement-sand mixture, a sheet polymer coating fixed to the slab with spikes engaging with the slab installed in a corresponding hole in the structure of the dowel, the outer surface of which is in contact with the walls of the holes of the structure, made with protruding elements, according to the claimed solution, the dowel is made with a sealed landing socket for the location of the fastening element enta. The dowel head can be made in the form of a truncated cone, and the protruding elements of the external surface of the dowel can be made in the form of inclined protrusions, with the apex directed towards the head. The hole in the polymer coating layer for the dowel is made with a chamfer, the size of which is 1 mm smaller than the size of the dowel head. The layer of cement-sand slab may have a thickness in the range of 30-50 mm, and the polymer coating layer may have a thickness in the range of 2-5 mm. In the end parts of the plate can be installed embedded parts made with holes for mounting elements and carvings.

In order to understand the proposed solutions adopted the following definitions:

polymer coating - a coating made of various polymer compositions with additional components to impart specified physical, mechanical, thermophysical and electrical properties;

spike - a protrusion made on the surface of the polymer coating facing the side of the plate, for example, in the form of a rib, ridge, anchor element of a T-shaped and V-shaped;

dowel - a fastener designed to secure the structure by installing another fastener in it.

The inventive building structure contains a plate, which is made on the basis of a cement-sand mixture, and a sheet polymer coating. Thanks to the studs made on the polymer coating, which engage with the plate, reliable bonding of the plate and the polymer coating is ensured. To fix the claimed design to an external structure, a hole is made in it, into which the dowel is installed. The junction between the dowel and the polymer coating is sealed, and the outer surface of the dowel is made with protruding elements, which allows you to securely fasten the entire structure to the external structure during its construction, during repair, reconstruction and / or waterproofing and corrosion protection. In addition, the dowel allows you to additionally fasten together a plate and a polymer coating. The dowel is made with a sealed landing socket for the location of the fastener in it. This design of the dowel, which is made integral, provides reliable attachment of the claimed design and tight connection when creating waterproofing and corrosion protection, since the absence of holes in the working part of the dowel eliminates the ingress of moisture and corrosive substances that may be in the space between the fastener and the inner surface dowels, inside the slab, into the space between the claimed structure and the external structure, as well as into the external structure, waterproofing and / or anticorrosive th protection which operate with the use of the claimed building structure.

The dowel head can be made in the form of a truncated cone, and the hole for the dowel in the polymer coating layer is made with a chamfer 1 mm smaller than the size of the dowel head, which allows the dowel to be installed at the same level with the surface of the polymer coating and to make a reliable tight connection, for example , by welding with an extruder or industrial hair dryer.

The protruding elements of the outer surface of the working part of the dowel are made in the form of inclined protrusions, with the apex directed to the cap. Such a surface "herringbone" provides reliable fixing of the dowel, eliminating its arbitrary removal. The protruding elements perform both the function of securely fastening the building structure to the external structure, as well as additional fixing of the polymer coating to the cement-sand slab.

The thickness of the cement-sand slab layer is selected in the range of 30-50 mm in such a way that, on the one hand, it ensures rigidity and reliability of the structure, and on the other hand, that the structure does not have excessive weight, which complicates installation, and excessive thickness, which reduces the volume of the structure being repaired . With a plate thickness of less than 30 mm, it is no longer possible to place reinforcement in it to maintain rigidity and to make mounting holes. With a thickness of more than 50 mm, the plate is too heavy, which complicates the installation of the structure and reduces its reliability. The claimed range during the tests showed the best indicators of reliability, rigidity and best performance.

The thickness of the polymer coating layer is selected in the range of 2-5 mm in such a way as to provide reliable waterproofing of the structure. A thickness of less than 2 mm is difficult to perform technologically while maintaining uniform thickness and maintaining integrity, structures with such a thickness of the polymer coating will be unreliable. Thicknesses greater than 5 mm are overweight and excessive in terms of material consumption and cost. The claimed range during the tests showed the best reliability and best performance.

In the end parts of the cement-sand slab installed embedded parts made with holes for placement of mounting elements. The holes are threaded for fixing mounting elements therein, preferably made with a thread. These elements allow you to securely fasten the plates during installation between themselves, to exclude their horizontal and vertical displacement relative to each other and to increase the strength and reliability of the structure.

The claimed solution is illustrated using the figure. Figure 1 represents one of the preferred embodiments of the proposed solution. In FIG. 1 shows a building structure that contains a slab (1) of a cement-sand mixture, a sheet polymer coating (2) fixed to the slab with spikes (3) engaged with the slab (1), hermetically fixed in the corresponding hole in the structure of the dowel (4) ), the outer surface of which is made with protruding elements (5), the dowel (4) is made with a sealed landing socket (6) for the location of the fastening element (not shown). The junction between the dowel and the polymer coating is made using a weld (7), which provides a tight connection. In the end parts of the plate (1), embedded parts (8) are installed, made with holes (9) for mounting elements. After installing the fastener (not shown in the figure) at the place of installation, a weld bead (10) can be made.

The slab (1) of the building structure is made of a cement-based mixture with the addition of fractionated quartz sand and polymers. The composition reinforced with polymers prevents cracking and shrinkage during production. The thickness of the plate (1) is selected from the range of 30-50 mm, in the preferred embodiment - 36 mm, which allows to ensure rigidity and reliability of the structure, for example, by placing reinforcement, and at the same time produce a structure whose weight allows easy installation without using heavy equipment, and the thickness of which does not significantly reduce the internal volume of the repaired structure. To facilitate construction in the cement-sand slab (1), recesses can be made from the back side. At the same time, the edges of these recesses will serve as additional stiffening ribs to increase the reliability of the structure.

The polymer coating (2) is made of one or more polymers with additional components to impart specified physical, mechanical, thermophysical, and electrical properties, in particular, Polyethylene, Polypropylene, or Unplasticized polyvinyl chloride. The thickness of the polymer coating layer (2) is selected from the range of 2-5 mm, in the preferred embodiment, 4 mm, so as to provide reliable waterproofing and corrosion protection of the structure.

The studs (3) on the polymer coating (2) can be made of various shapes, sizes and locations, in particular in the form of ribs, ridges, anchor elements of a T-shaped and V-shaped, and made, for example, by extrusion. The height of the studs (3) is selected in the range of 5-20 mm, the distance between them depends on the shape and is selected in the range of 20-90 mm. The indicated dimensions and distances are selected empirically and provide the most reliable attachment of the polymer coating (2) to the cement-sand slab (1).

The one-piece dowel (4), the outer surface of which is made with protruding elements (5), is made with a hermetically seated seat socket (6) for the location of a fastening element (not shown in the figure) in it by injection molding and can have, for example, the following dimensions 14x60 mm, 14x80 mm and 21x120 mm.

The use of the claimed technical solution is illustrated by the following example, revealing one of the possible applications for the reconstruction of the structure. The building structure is located around the perimeter of the engineering structure, the reconstruction of which is carried out. In this case, the vertical and horizontal rows of structures are interconnected by means of mounting elements, for example, steel studs. For this, mounting elements are screwed into the holes (9) of the embedded parts (8) in the end parts of the plates (1) of one row with the part that contains the thread. The other part of the mounting elements is inserted into the holes (9) of the embedded parts (8) in the end part of the plates (1) of another row. This installation allows you to fix the plate (1) during installation between themselves to exclude their vertical and horizontal displacement relative to each other and increase the strength and reliability of the structure. Fixation of the structure to the wall of the structure is additionally performed using a cement-sand building mixture on a polymer basis. Then, in the wall of the external structure and in the building structure, according to the claimed solution, a hole is made using a drill on concrete. For dowels 14x60 mm, 14x80 mm, it is necessary to use a drill with a diameter of 13 mm, for dowels 21x120 mm, use a drill with a diameter of 20 mm. In the polymer coating (2), in addition to the hole, a chamfer is performed, 1 mm smaller than the size of the dowel head (4). Drilling dust is removed from the hole. The dowel (4) is inserted into the hole, leaving 10-15 mm unloaded in the hole. Using a building hair dryer, the dowel head (4) and the chamfer in the polymer coating (2) are heated, then the dowel (4) is inserted all the way. After the operation is completed, the quality of the adhesion between the dowel head (4) and the polymer coating (2) is checked. To ensure the tightness of the connection, a weld (7) is performed using an extruder. After welding the dowel (4) with a polymer coating (2), the joint is cleaned, for example, with a hand scraper flush with the surface of the polymer coating (2). After installing the dowel (4) and processing the weld (7), a fastener (not shown) is installed in the hole to secure the building structure to the external structure, the repair and / or waterproofing of which is performed. After installing a fastening element, for example, a screw screw, a weld seam (10), for example, with a hand extruder, is made at the installation site and, for example, is cleaned with a hand scraper flush with the surface of the polymer coating (2) to restore the integrity of the structure. The dowel (4) can also be used to fasten various elements, in particular, stairs, supports, platforms, to a building structure and / or repaired structure. In this case, a screw or bolt is screwed into a sealed seat (6) through a piece to be attached (mounting unit for a ladder, platform, etc.).

The presented figures, a description of the design and use of the device do not exhaust the possible options for execution and do not in any way limit the scope of the claimed technical solution. Other options for execution and use in the scope of the claimed formula are possible. The inventive design is highly reliable, it can be used for construction, repair, reconstruction and / or waterproofing and corrosion protection of various engineering structures while maintaining tightness. This design is durable and able to maintain its properties during operation and can be easily repaired.

Claims (9)

1. Building structure, including a slab made on the basis of a cement-sand mixture, a polymer sheet sheet fixed to the slab with spikes engaging with the slab, a wall plug fixed in the corresponding hole of the structure, the external surface of which is in contact with the walls of the hole in the structure, made with protruding elements, characterized in that the dowel is made with a sealed seat for the location of the fastening element. 2. The building structure according to claim 1, characterized in that the dowel head is made in the form of a truncated cone. 3. The building structure according to claim 1, characterized in that the protruding elements of the outer surface of the dowel are made in the form of inclined protrusions, the apex directed to the cap. 4. The building structure according to claim 1, characterized in that the hole for the dowel in the polymer coating layer is made with a chamfer, the size of which is 1 mm smaller than the size of the dowel head. 5. The building structure according to claim 1, characterized in that the layer of cement-sand slab has a thickness in the range of 30-50 mm. 6. The building structure according to claim 1, characterized in that the polymer coating layer has a thickness in the range of 2-5 mm. 7. The building structure according to claim 1, characterized in that in the end parts of the slab are embedded parts made with holes for mounting elements. 8. The building structure according to claim 7, characterized in that the holes are threaded. 9. The building structure according to claim 1, characterized in that the fixing of the dowel in the hole is made by means of a welded joint.

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